Friday, October 30, 2009

I recently bought a new laptop and the display went bad in less than 15 days. I eventually got it back with the LCD replaced, but my experience at the customer service was horrible and I complained. Here is the letter I wrote, I am hoping that [company] will wake up and take notice. Customer service offered elsewhere (outside India) seems to be much more superior with value for customers.

My experience with [company] today was one of the worst I've had with any product support. I visited [service center] to repair my 15 day old laptop, the display had stopped working. I found that the front desk person opened my laptop without using any static protection mechanism, which I escalated all the way to [somename] (Customer Service Head). I asked for a letter of apology for not following prescribed procedure. [somename] told me it is a human error and I need to ignore it and stop interfering with how [company] service people work (I as a customer was going beyond my boundaries and interfering with their day to day work). After my complaint, the other people started doing the right thing, the local manager said that his employees were tired and just had lunch (hence the error). If [company] can void my warranty (even for opening my laptop, even though I did not (just hypothetically)), why is it OK for [company] service people to *NOT HANDLE* my laptop carefully.

Clearly I am very disappointed and want to see justice done in this matter. All I want so far is a letter of apology for not handling my product and a guarantee that their action has not damaged my laptop

Do you have any experiences to share? Consumer rights are taken for granted and I wish we could be more empowered to take stronger action.

Monday, October 26, 2009

I know this is last minute, but the CFP is due tomorrow (so please make full use of the last day to submit proposals). The event has unfortunately moved out of IISc (my favourite venue for the event and given the proximity to my house, my favourite visiting place as well). Nevertheless, the organizers are very helpful/cheerful people and I get to meet a lot of local FOSS people, apart from the regular visitors. Make sure you attend the event if you are in town or make plans to come down to attend it.

Friday, October 23, 2009

In my previous post "Finite Automata", I had posted two interesting exercises from well know texts. This post has their graphical solutions

Question 1 was

Given a binary stream, can we develop a finite automata to calculate the binary number modulo 5?

Here is the graphical solution of the problem, one can simulate an input stream of 0's and 1's and verify the correctness

The start state is represented using a triangle and the accept state is represented by double boundary node. In this case both the start and accept state is "1".

Question 2 was

Can we develop a finite automata that can validate the addition of two streams of binary numbers? Does such a finite automata exist?

There is one simplification we need to make to validate our results. For a given input of the form

0 1 1 0 0 1 Input21 0 0

We need to present the string to the automata in the form [1 0 0][0 0 1][0 1 1]. We split the input and output into groups of threes, the last bit (MSB) represents the output. So for example, it says 1+1 is 0 and that is carried over and for the next input 1+0+ 1 (carry) is 0 and1 is carried over again. For the final input 0+0+1(carry) is 1. Hence this language is accepted by the finite automate.

Here is the graphical representation of the solution. In the next blog on FA, I'll discuss the techniques behind these solutions (which are probably very obvious to the reader of this blog anyway)

NOTE: states 7 and 8 are no good, but they are still shown here. Again, 3 is the start state and 3 and 4 are the accept states. The solution can be verified using two inputs and the output in the format specified above

Oh! Gosh I can see it already, this is going to be a long post. Here is a brief background, I recently found my copy of Michael Sipser's Introduction to the Theory of Computation lying around. I found that is was rather nice to read (compared to some of the earlier texts I had been reading) and on finishing the first chapter stumbled upon some interesting problems posed in different forms in Sipser's, Ullman's and Papadimitriou's book.

I am going to cover some interesting aspects of Automata in this blog entry

The exercises in this blog entry to provoke some thought

Their solutions and representation in the next blog entry

A software to help solve/validate some of the solutions to the exercises

The exercises I am going to cover are

Given a binary stream, can we develop a finite automata to calculate the binary number modulo 5?

Can we develop a finite automata that can validate the addition of two streams of binary numbers? Does such a finite automata exist?

Now that you have some food for thought, come back here and check to see what I did with these problems/exercises at little later in the next blog post